Atrial high energy phosphate content and mitochondrial enzyme activity during chronic atrial fibrillation

doi:10.1016/S0008-6363(00)00139-5

Cardiovascular Research 2000 47(4):788-796; doi:10.1016/S0008-6363(00)00139-5
© 2000 by European Society of Cardiology

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Atrial high energy phosphate content and mitochondrial enzyme activity during chronic atrial fibrillation

Jannie Ausma^a^,b^,*, Will A Coumans^a, Hans Duimel^b, Ger J Van der Vusse^a, Maurits A Allessie^a and Marcel Borgers^b

^aDepartment of Physiology, Cardiovascular Research Institute Maastricht (CARIM), Maastricht University, P.O. Box 616, 6200 MD Maastricht, The Netherlands
^bDepartment of Molecular Cell Biology, Cardiovascular Research Institute Maastricht (CARIM), Maastricht University, Maastricht, The Netherlands

^* Corresponding author. Tel.: +31-43-388-1076; fax: +31-43-388-4166 jannie.ausma{at}fys.unimaas.nl

Objective: Prolonged atrial fibrillation (AF) results in (ultra)structuralremodelling of atrial cardiomyocytes resembling alterationsseen in ischemia-induced ventricular hibernation. The mechanismsunderlying these changes are incompletely understood. In thepresent study we explored the hypothesis that a profound imbalancein energy status during chronic AF acts as a stimulus for structuralremodelling. Methods and Results: The content of high energy-phosphatesand related compounds together with a selected number of mitochondrialenzymes, known to be altered under ischemic conditions, weredetermined in tissue samples taken from atria of goats in sinusrhythm (SR) and after 1, 2, 4, 8 and 16 weeks of AF maintainedby burst pacing. Atrial remodelling was quantified by countingthe percentage of cells with >10% myolysis. During AF structuralremodelling developed progressively, after 8 weeks about 40%of the atrial myocytes were affected. The concentration of adeninenucleotides and their degradation products did not change significantlyduring AF. Also the activity of mitochondrial cytochrome c oxidaseactivity was similar during AF and SR. Mitochondrial NADH-oxidaseand proton-translocating ATPase activities were not inducedby AF. The tissue content of phosphocreatine decreased duringthe first week by 60%, but completely recovered between 8 and16 weeks of AF. Conclusions: The analysis of adenine nucleotidesduring AF provided no indication for the development of severeatrial ischemia. This notion is supported by enzyme cytochemicalfindings. However, AF-induced atrial remodelling was associatedwith a transient lowering of phosphocreatine content, suggestingan increase in energy demand during the early phase of AF. Thesubsequent recovery of the phosphocreatine pool indicates restorationof the balance between energy demand and supply in chronicallyfibrillating atria.

KEYWORDS Atrial function; Energy metabolism; Hibernation; Mitochondria; Remodeling; Supraventr. arrhythmia

This study was presented in part at the 72nd Annual ScientificSession of the American Heart Association (Circulation 1999;100:I-11).

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